X-Git-Url: http://demsky.eecs.uci.edu/git/?a=blobdiff_plain;f=include%2Fllvm%2FType.h;h=5a867045af81e47f739e9621880952e5b6223361;hb=6e006d3de882784527d4d9cc92b1a91f6773505e;hp=da11d98e2693d4ba242ce1f527ab16aa0638c1fb;hpb=1afcace3a3a138b1b18e5c6270caa8dae2261ae2;p=oota-llvm.git diff --git a/include/llvm/Type.h b/include/llvm/Type.h index da11d98e269..5a867045af8 100644 --- a/include/llvm/Type.h +++ b/include/llvm/Type.h @@ -16,16 +16,17 @@ #define LLVM_TYPE_H #include "llvm/Support/Casting.h" +#include "llvm/Support/DataTypes.h" namespace llvm { -class DerivedType; class PointerType; class IntegerType; class raw_ostream; class Module; class LLVMContext; class LLVMContextImpl; +class StringRef; template struct GraphTraits; /// The instances of the Type class are immutable: once they are created, @@ -40,7 +41,7 @@ class Type { public: //===--------------------------------------------------------------------===// /// Definitions of all of the base types for the Type system. Based on this - /// value, you can cast to a "DerivedType" subclass (see DerivedTypes.h) + /// value, you can cast to a class defined in DerivedTypes.h. /// Note: If you add an element to this, you need to add an element to the /// Type::getPrimitiveType function, or else things will break! /// Also update LLVMTypeKind and LLVMGetTypeKind () in the C binding. @@ -48,23 +49,24 @@ public: enum TypeID { // PrimitiveTypes - make sure LastPrimitiveTyID stays up to date. VoidTyID = 0, ///< 0: type with no size - FloatTyID, ///< 1: 32-bit floating point type - DoubleTyID, ///< 2: 64-bit floating point type - X86_FP80TyID, ///< 3: 80-bit floating point type (X87) - FP128TyID, ///< 4: 128-bit floating point type (112-bit mantissa) - PPC_FP128TyID, ///< 5: 128-bit floating point type (two 64-bits, PowerPC) - LabelTyID, ///< 6: Labels - MetadataTyID, ///< 7: Metadata - X86_MMXTyID, ///< 8: MMX vectors (64 bits, X86 specific) + HalfTyID, ///< 1: 16-bit floating point type + FloatTyID, ///< 2: 32-bit floating point type + DoubleTyID, ///< 3: 64-bit floating point type + X86_FP80TyID, ///< 4: 80-bit floating point type (X87) + FP128TyID, ///< 5: 128-bit floating point type (112-bit mantissa) + PPC_FP128TyID, ///< 6: 128-bit floating point type (two 64-bits, PowerPC) + LabelTyID, ///< 7: Labels + MetadataTyID, ///< 8: Metadata + X86_MMXTyID, ///< 9: MMX vectors (64 bits, X86 specific) // Derived types... see DerivedTypes.h file. // Make sure FirstDerivedTyID stays up to date! - IntegerTyID, ///< 9: Arbitrary bit width integers - FunctionTyID, ///< 10: Functions - StructTyID, ///< 11: Structures - ArrayTyID, ///< 12: Arrays - PointerTyID, ///< 13: Pointers - VectorTyID, ///< 14: SIMD 'packed' format, or other vector type + IntegerTyID, ///< 10: Arbitrary bit width integers + FunctionTyID, ///< 11: Functions + StructTyID, ///< 12: Structures + ArrayTyID, ///< 13: Arrays + PointerTyID, ///< 14: Pointers + VectorTyID, ///< 15: SIMD 'packed' format, or other vector type NumTypeIDs, // Must remain as last defined ID LastPrimitiveTyID = X86_MMXTyID, @@ -75,21 +77,32 @@ private: /// Context - This refers to the LLVMContext in which this type was uniqued. LLVMContext &Context; - TypeID ID : 8; // The current base type of this type. - unsigned SubclassData : 24; // Space for subclasses to store data + // Due to Ubuntu GCC bug 910363: + // https://bugs.launchpad.net/ubuntu/+source/gcc-4.5/+bug/910363 + // Bitpack ID and SubclassData manually. + // Note: TypeID : low 8 bit; SubclassData : high 24 bit. + uint32_t IDAndSubclassData; protected: friend class LLVMContextImpl; explicit Type(LLVMContext &C, TypeID tid) - : Context(C), ID(tid), SubclassData(0), - NumContainedTys(0), ContainedTys(0) {} + : Context(C), IDAndSubclassData(0), + NumContainedTys(0), ContainedTys(0) { + setTypeID(tid); + } ~Type() {} - - unsigned getSubclassData() const { return SubclassData; } + + void setTypeID(TypeID ID) { + IDAndSubclassData = (ID & 0xFF) | (IDAndSubclassData & 0xFFFFFF00); + assert(getTypeID() == ID && "TypeID data too large for field"); + } + + unsigned getSubclassData() const { return IDAndSubclassData >> 8; } + void setSubclassData(unsigned val) { - SubclassData = val; + IDAndSubclassData = (IDAndSubclassData & 0xFF) | (val << 8); // Ensure we don't have any accidental truncation. - assert(SubclassData == val && "Subclass data too large for field"); + assert(getSubclassData() == val && "Subclass data too large for field"); } /// NumContainedTys - Keeps track of how many Type*'s there are in the @@ -117,49 +130,54 @@ public: /// getTypeID - Return the type id for the type. This will return one /// of the TypeID enum elements defined above. /// - TypeID getTypeID() const { return ID; } + TypeID getTypeID() const { return (TypeID)(IDAndSubclassData & 0xFF); } /// isVoidTy - Return true if this is 'void'. - bool isVoidTy() const { return ID == VoidTyID; } + bool isVoidTy() const { return getTypeID() == VoidTyID; } + + /// isHalfTy - Return true if this is 'half', a 16-bit IEEE fp type. + bool isHalfTy() const { return getTypeID() == HalfTyID; } /// isFloatTy - Return true if this is 'float', a 32-bit IEEE fp type. - bool isFloatTy() const { return ID == FloatTyID; } + bool isFloatTy() const { return getTypeID() == FloatTyID; } /// isDoubleTy - Return true if this is 'double', a 64-bit IEEE fp type. - bool isDoubleTy() const { return ID == DoubleTyID; } + bool isDoubleTy() const { return getTypeID() == DoubleTyID; } /// isX86_FP80Ty - Return true if this is x86 long double. - bool isX86_FP80Ty() const { return ID == X86_FP80TyID; } + bool isX86_FP80Ty() const { return getTypeID() == X86_FP80TyID; } /// isFP128Ty - Return true if this is 'fp128'. - bool isFP128Ty() const { return ID == FP128TyID; } + bool isFP128Ty() const { return getTypeID() == FP128TyID; } /// isPPC_FP128Ty - Return true if this is powerpc long double. - bool isPPC_FP128Ty() const { return ID == PPC_FP128TyID; } + bool isPPC_FP128Ty() const { return getTypeID() == PPC_FP128TyID; } /// isFloatingPointTy - Return true if this is one of the five floating point /// types bool isFloatingPointTy() const { - return ID == FloatTyID || ID == DoubleTyID || - ID == X86_FP80TyID || ID == FP128TyID || ID == PPC_FP128TyID; + return getTypeID() == HalfTyID || getTypeID() == FloatTyID || + getTypeID() == DoubleTyID || + getTypeID() == X86_FP80TyID || getTypeID() == FP128TyID || + getTypeID() == PPC_FP128TyID; } /// isX86_MMXTy - Return true if this is X86 MMX. - bool isX86_MMXTy() const { return ID == X86_MMXTyID; } + bool isX86_MMXTy() const { return getTypeID() == X86_MMXTyID; } /// isFPOrFPVectorTy - Return true if this is a FP type or a vector of FP. /// bool isFPOrFPVectorTy() const; /// isLabelTy - Return true if this is 'label'. - bool isLabelTy() const { return ID == LabelTyID; } + bool isLabelTy() const { return getTypeID() == LabelTyID; } /// isMetadataTy - Return true if this is 'metadata'. - bool isMetadataTy() const { return ID == MetadataTyID; } + bool isMetadataTy() const { return getTypeID() == MetadataTyID; } /// isIntegerTy - True if this is an instance of IntegerType. /// - bool isIntegerTy() const { return ID == IntegerTyID; } + bool isIntegerTy() const { return getTypeID() == IntegerTyID; } /// isIntegerTy - Return true if this is an IntegerType of the given width. bool isIntegerTy(unsigned Bitwidth) const; @@ -171,30 +189,30 @@ public: /// isFunctionTy - True if this is an instance of FunctionType. /// - bool isFunctionTy() const { return ID == FunctionTyID; } + bool isFunctionTy() const { return getTypeID() == FunctionTyID; } /// isStructTy - True if this is an instance of StructType. /// - bool isStructTy() const { return ID == StructTyID; } + bool isStructTy() const { return getTypeID() == StructTyID; } /// isArrayTy - True if this is an instance of ArrayType. /// - bool isArrayTy() const { return ID == ArrayTyID; } + bool isArrayTy() const { return getTypeID() == ArrayTyID; } /// isPointerTy - True if this is an instance of PointerType. /// - bool isPointerTy() const { return ID == PointerTyID; } + bool isPointerTy() const { return getTypeID() == PointerTyID; } /// isVectorTy - True if this is an instance of VectorType. /// - bool isVectorTy() const { return ID == VectorTyID; } + bool isVectorTy() const { return getTypeID() == VectorTyID; } /// canLosslesslyBitCastTo - Return true if this type could be converted /// with a lossless BitCast to type 'Ty'. For example, i8* to i32*. BitCasts /// are valid for types of the same size only where no re-interpretation of /// the bits is done. /// @brief Determine if this type could be losslessly bitcast to Ty - bool canLosslesslyBitCastTo(const Type *Ty) const; + bool canLosslesslyBitCastTo(Type *Ty) const; /// isEmptyTy - Return true if this type is empty, that is, it has no /// elements or all its elements are empty. @@ -203,14 +221,14 @@ public: /// Here are some useful little methods to query what type derived types are /// Note that all other types can just compare to see if this == Type::xxxTy; /// - bool isPrimitiveType() const { return ID <= LastPrimitiveTyID; } - bool isDerivedType() const { return ID >= FirstDerivedTyID; } + bool isPrimitiveType() const { return getTypeID() <= LastPrimitiveTyID; } + bool isDerivedType() const { return getTypeID() >= FirstDerivedTyID; } /// isFirstClassType - Return true if the type is "first class", meaning it /// is a valid type for a Value. /// bool isFirstClassType() const { - return ID != FunctionTyID && ID != VoidTyID; + return getTypeID() != FunctionTyID && getTypeID() != VoidTyID; } /// isSingleValueType - Return true if the type is a valid type for a @@ -218,8 +236,9 @@ public: /// and array types. /// bool isSingleValueType() const { - return (ID != VoidTyID && isPrimitiveType()) || - ID == IntegerTyID || ID == PointerTyID || ID == VectorTyID; + return (getTypeID() != VoidTyID && isPrimitiveType()) || + getTypeID() == IntegerTyID || getTypeID() == PointerTyID || + getTypeID() == VectorTyID; } /// isAggregateType - Return true if the type is an aggregate type. This @@ -228,21 +247,23 @@ public: /// does not include vector types. /// bool isAggregateType() const { - return ID == StructTyID || ID == ArrayTyID; + return getTypeID() == StructTyID || getTypeID() == ArrayTyID; } /// isSized - Return true if it makes sense to take the size of this type. To /// get the actual size for a particular target, it is reasonable to use the - /// TargetData subsystem to do this. + /// DataLayout subsystem to do this. /// bool isSized() const { // If it's a primitive, it is always sized. - if (ID == IntegerTyID || isFloatingPointTy() || ID == PointerTyID || - ID == X86_MMXTyID) + if (getTypeID() == IntegerTyID || isFloatingPointTy() || + getTypeID() == PointerTyID || + getTypeID() == X86_MMXTyID) return true; // If it is not something that can have a size (e.g. a function or label), // it doesn't have a size. - if (ID != StructTyID && ID != ArrayTyID && ID != VectorTyID) + if (getTypeID() != StructTyID && getTypeID() != ArrayTyID && + getTypeID() != VectorTyID) return false; // Otherwise we have to try harder to decide. return isSizedDerivedType(); @@ -255,7 +276,7 @@ public: /// /// Note that this may not reflect the size of memory allocated for an /// instance of the type or the number of bytes that are written when an - /// instance of the type is stored to memory. The TargetData class provides + /// instance of the type is stored to memory. The DataLayout class provides /// additional query functions to provide this information. /// unsigned getPrimitiveSizeInBits() const; @@ -263,7 +284,7 @@ public: /// getScalarSizeInBits - If this is a vector type, return the /// getPrimitiveSizeInBits value for the element type. Otherwise return the /// getPrimitiveSizeInBits value for this type. - unsigned getScalarSizeInBits() const; + unsigned getScalarSizeInBits(); /// getFPMantissaWidth - Return the width of the mantissa of this type. This /// is only valid on floating point types. If the FP type does not @@ -272,7 +293,7 @@ public: /// getScalarType - If this is a vector type, return the element type, /// otherwise return 'this'. - const Type *getScalarType() const; + Type *getScalarType(); //===--------------------------------------------------------------------===// // Type Iteration support. @@ -294,6 +315,34 @@ public: /// unsigned getNumContainedTypes() const { return NumContainedTys; } + //===--------------------------------------------------------------------===// + // Helper methods corresponding to subclass methods. This forces a cast to + // the specified subclass and calls its accessor. "getVectorNumElements" (for + // example) is shorthand for cast(Ty)->getNumElements(). This is + // only intended to cover the core methods that are frequently used, helper + // methods should not be added here. + + unsigned getIntegerBitWidth() const; + + Type *getFunctionParamType(unsigned i) const; + unsigned getFunctionNumParams() const; + bool isFunctionVarArg() const; + + StringRef getStructName() const; + unsigned getStructNumElements() const; + Type *getStructElementType(unsigned N) const; + + Type *getSequentialElementType() const; + + uint64_t getArrayNumElements() const; + Type *getArrayElementType() const { return getSequentialElementType(); } + + unsigned getVectorNumElements() const; + Type *getVectorElementType() const { return getSequentialElementType(); } + + unsigned getPointerAddressSpace() const; + Type *getPointerElementType() const { return getSequentialElementType(); } + //===--------------------------------------------------------------------===// // Static members exported by the Type class itself. Useful for getting // instances of Type. @@ -307,6 +356,7 @@ public: // static Type *getVoidTy(LLVMContext &C); static Type *getLabelTy(LLVMContext &C); + static Type *getHalfTy(LLVMContext &C); static Type *getFloatTy(LLVMContext &C); static Type *getDoubleTy(LLVMContext &C); static Type *getMetadataTy(LLVMContext &C); @@ -325,6 +375,7 @@ public: // Convenience methods for getting pointer types with one of the above builtin // types as pointee. // + static PointerType *getHalfPtrTy(LLVMContext &C, unsigned AS = 0); static PointerType *getFloatPtrTy(LLVMContext &C, unsigned AS = 0); static PointerType *getDoublePtrTy(LLVMContext &C, unsigned AS = 0); static PointerType *getX86_FP80PtrTy(LLVMContext &C, unsigned AS = 0); @@ -338,12 +389,9 @@ public: static PointerType *getInt32PtrTy(LLVMContext &C, unsigned AS = 0); static PointerType *getInt64PtrTy(LLVMContext &C, unsigned AS = 0); - /// Methods for support type inquiry through isa, cast, and dyn_cast: - static inline bool classof(const Type *) { return true; } - /// getPointerTo - Return a pointer to the current type. This is equivalent /// to PointerType::get(Foo, AddrSpace). - PointerType *getPointerTo(unsigned AddrSpace = 0) const; + PointerType *getPointerTo(unsigned AddrSpace = 0); private: /// isSizedDerivedType - Derived types like structures and arrays are sized @@ -353,7 +401,7 @@ private: }; // Printing of types. -static inline raw_ostream &operator<<(raw_ostream &OS, const Type &T) { +static inline raw_ostream &operator<<(raw_ostream &OS, Type &T) { T.print(OS); return OS; } @@ -388,7 +436,7 @@ template <> struct GraphTraits { typedef const Type NodeType; typedef Type::subtype_iterator ChildIteratorType; - static inline NodeType *getEntryNode(const Type *T) { return T; } + static inline NodeType *getEntryNode(NodeType *T) { return T; } static inline ChildIteratorType child_begin(NodeType *N) { return N->subtype_begin(); }